Техническая Спецификация для Linear Technology DC1041A-A - LTM4601 Demo Board | 20VIN, 12A Step-Down μModule Regulator DC1041A-A DC1041A-A
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Модели
DC1041A-A
LTM4601/LTM4601-1
11
4601fd
The typical LTM4601 application circuit is shown in Fig-
ure 18. External component selection is primarily deter-
mined by the maximum load current and output voltage.
Refer to Table 2 for specific external capacitor requirements
for a particular application.
V
IN
to V
OUT
Step-Down Ratios
There are restrictions in the maximum V
IN
to V
OUT
step
down ratio that can be achieved for a given input voltage.
These constraints are shown in the Typical Performance
Characteristics curves labeled V
IN
to V
OUT
Step-Down
Ratio. Note that additional thermal derating may apply. See
the Thermal Considerations and Output Current Derating
section of this data sheet.
Output Voltage Programming and Margining
The PWM controller has an internal 0.6V reference voltage.
The PWM controller has an internal 0.6V reference voltage.
As shown in the Block Diagram, a 1M and a 60.4k 0.5%
internal feedback resistor connects V
OUT
and V
FB
pins
together. The V
OUT_LCL
pin is connected between the 1M
and the 60.4k resistor. The 1M resistor is used to protect
against an output overvoltage condition if the V
OUT_LCL
pin is not connected to the output, or if the remote sense
amplifier output is not connected to V
OUT_LCL
. In these
cases, the output voltage will default to 0.6V. Adding a
resistor R
SET
from the V
FB
pin to SGND pin programs
the output voltage:
V
OUT
= 0.6V •
60.4k
+R
SET
R
SET
Table 1. R
SET
Standard 1% Resistor Values vs V
OUT
R
SET
(k
W)
Open
60.4
40.2
30.1
25.5
19.1
13.3
8.25
V
OUT
(V)
0.6
1.2
1.5
1.8
2
2.5
3.3
5
The MPGM pin programs a current that when multiplied
by an internal 10k resistor sets up the 0.6V reference ±
offset for margining. A 1.18V reference divided by the
RPGM resistor on the MPGM pin programs the current.
Calculate V
OUT(MARGIN)
:
V
OUT(MARGIN)
=
%V
OUT
100
• V
OUT
where %V
OUT
is the percentage of V
OUT
you want to
margin, and V
OUT(MARGIN)
is the margin quantity in volts:
R
PGM
=
V
OUT
0.6V
•
1.18V
V
OUT(MARGIN)
•10k
where R
PGM
is the resistor value to place on the MPGM
pin to ground.
The margining voltage, V
The margining voltage, V
OUT(MARGIN)
, will be added or
subtracted from the nominal output voltage as determined
by the state of the MARG0 and MARG1 pins. See the truth
table below:
MARG1
MARG0
MODE
LOW
LOW
NO MARGIN
LOW
HIGH
MARGIN UP
HIGH
LOW
MARGIN DOWN
HIGH
HIGH
NO MARGIN
Input Capacitors
LTM4601 module should be connected to a low AC imped-
LTM4601 module should be connected to a low AC imped-
ance DC source. Input capacitors are required to be placed
adjacent to the module. In Figure 18, the 10µF ceramic input
capacitors are selected for their ability to handle the large
RMS current into the converter. An input bulk capacitor
of 100µF is optional. This 100µF capacitor is only needed
if the input source impedance is compromised by long
inductive leads or traces.
applicaTions inForMaTion